Notice: Undefined index: id in /home/ft4user/foreststreesagroforestry.org/wp-content/themes/FTA/template-parts/content.php on line 3
  • Home
  • At GLF Climate, youth shared 13 sustainable forestry innovations for the Asia-Pacific region

At GLF Climate, youth shared 13 sustainable forestry innovations for the Asia-Pacific region


Notice: Undefined variable: id_overview in /home/ft4user/foreststreesagroforestry.org/wp-content/themes/FTA/template-parts/content.php on line 64
Posted by

FTA communications

More than ever, forests and trees are called upon to address the great global challenges of our times, among which are: climate change, deforestation, forest degradation, biodiversity erosion, poverty and food insecurity. Innovative technologies – including digital technologies, biological technologies, technical innovations in processes and products, innovative finance and social innovations – hold a huge potential to advance sustainable forest management and help address these challenges, globally and in the Asia-Pacific region. However, technology adoption has been slow and uneven in the region. As technology enthusiasts, forest guardians and forest managers of tomorrow, young people have a leading role to play in generating momentum and revolutionizing institutions from within to support the uptake and scaling-up of innovative technologies in Asia and the Pacific.

This is why, on Friday, 5 Nov. 2021, FAO and the CGIAR Research Programme on Forests, Trees and Agroforestry (FTA) co-organized a session highlighting youth perspectives on innovative forest technologies. This event attracted over 400 attendees and was part of the GLF Climate hybrid conference, “Frontiers of Change.” “Instead of another meeting to exchange on the global and pressing issues, we wanted, during this event, to focus on innovative solutions and share a note of optimism and hope” said Vincent Gitz (CIFOR), FTA Director.

On behalf of FAO, Rao Matta, Forestry Officer, highlighted the important role innovation can play to make the forest sector more attractive to young people. He invited the youth to become “innovation champions,” to play a pivotal role in scaling-up innovative technologies, and to bring their unique forward-looking and out-of-the-box thinking perspectives to the discussion table. “FAO,” he said, “is fully committed to promote the visibility of youth and of their seminal work”.

During this event, FAO and FTA gave the floor to students and young professionals involved in the forest sector in Asia and the Pacific, to hear some of their ideas to unleash the potential offered by innovative technologies to advance sustainable forest management. 13 young people, aged 18–35, from nine different countries of the Asia-Pacific region who were selected by FAO and CIFOR after an open call for contributions presented their works in 3 minutes each.

Their talks illustrated, in various contexts, the huge potential of innovative forest technologies to advance sustainable forestry and sustainable forest management. Together, the guest speakers covered a broad range of topics, showing how technologies — both new and repurposed — can improve and facilitate monitoring and reporting, strengthen citizen engagement in forest monitoring and management and support process and product innovations in the forest sector in the Asia-Pacific region. These ideas are also inspiring globally and in other contexts.

YOU CAN REPLAY THE FULL EVENT HERE

The presentations gave way to a lively session of questions and answers with the audience. The back-and-forth discussions revealed some of the barriers to uptake and scale innovative technologies. These blockages include: (i) the limited internet connection in rural or remote areas; (ii) the high level of upfront investments that may be required for technology adoption, including for equipment, infrastructure development, capacity-building and involvement of local communities. Participants also noted that restrictive or rigid policies and regulations often lag far behind the quick evolution of innovative technologies, which can hamper their use and dissemination. For instance, current policies and rules may not allow the use of data collected by remote sensing methods in official statistics or as forensic evidence. Concluding this event, Rao Matta, indicated  that intensive, follow-up actions will be organized at country level, probably next year. Young experts will once again be invited to share their experience and views on sustainable innovations for the Asia-Pacific.

To access the 13 video presentations, please follow the links below:

Session 1: How can innovative technologies improve and facilitate monitoring?

  1. Shahrukh Kamran (Pakistan): Development, testing and implementation of insect-catching drones.
  2. Kyuho Lee (Republic of Korea): Drones for planning and monitoring forest ecosystem restoration: towards a forest degradation index
  3. Angga Saputra (Indonesia): Estimating tree height, canopy cover and tree diameter using unmanned aerial vehicle (UAV) technology.
  4. Cecille de Jesus (the Philippines): Follow the water: advanced technologies for demonstrating forest-water-community relationships.
  5. Thuan Sarzynski (Vietnam): Google Earth Engine, an innovative technology for forest conservation.
  6. Marie Jessica Gabriel (the Philippines): Spatial Monitoring And Reporting Tool (SMART).

Session 2: How can innovative technologies facilitate the engagement of civil society, local communities, smallholders and youth?

  1. Sony Lama (Nepal): Forest Watcher: employing citizen science in forest management of Nepal.
  2. Nur Bahar (Malaysia): How to effectively engage youth in satellite-based tropical forest monitoring?
  3. June Mandawali (Papua New Guinea): Community Based Tree Nurseries in Ramu/Markham Valley of Papua New Guinea.

Session 3: How can innovative technologies support optimization of processes and products for sustainable forest management?

  1. Sanjayaraj Tamang (Nepal): Invasive species management in Nepal: a pathway to sustainable forest management.
  2. Clarence Gio S. Almoite (the Philippines): Building back Philippine biodiversity through geotagging mother tree species for modernized and mechanized forest nurseries.
  3. Prachi Gupta (India): Advances in the wood anatomical studies with innovations in microscopy.
  4. Deasy Ramatia (Indonesia): Binderless particleboard: production process and self- bonding mechanisms.
Download the PDF!

All of these 3-minute presentations have been developed in detailed scientific articles and gathered in a FAO and FTA co-publication entitled, Innovative forestry for a sustainable future. Youth contributions from Asia and the Pacific.

This youth publication is part of a broader roadmap jointly developed by FAO and FTA on innovative forest technologies in the Asia-Pacific region.

Click here for more information on this roadmap process.

 


Notice: Undefined index: id in /home/ft4user/foreststreesagroforestry.org/wp-content/themes/FTA/template-parts/content.php on line 3
  • Home
  • Citizens support data collection on water towers that help to supply their communities

Citizens support data collection on water towers that help to supply their communities


Notice: Undefined variable: id_overview in /home/ft4user/foreststreesagroforestry.org/wp-content/themes/FTA/template-parts/content.php on line 64
In Kenya’s Sondu Basin, local communities take water measurements to aid monitoring. Photo by P. Shepherd/CIFOR
Posted by

FTA COMMUNICATIONS TEAM

In Kenya’s Sondu Basin, local communities take water measurements to aid monitoring. Photo by P. Shepherd/CIFOR

Montane forests in East Africa play a crucial role as water towers, holding freshwater long enough for it to recharge aquifers that supply local communities. 

On the other hand, a recent project from the Center for International Forestry Research (CIFOR) in Kenya that forms part of the CGIAR Research Program on Forests, Trees and Agroforestry (FTA) has been examining what communities can do for the water towers.

“The state of forests in Kenya is really critical, so we wanted to estimate their water supply services to inform authorities and society of their value,” says Mariana Rufino, Senior Associate at CIFOR and Chair of Agricultural Systems at the UK’s Lancaster Environment Centre.

Read more: Bridging research and development to generate science and solutions

When she and fellow researchers found there were no consistent datasets on the state of water resources in the Sondu-Miriu River basin, a remote catchment in western Kenya, they decided to test an approach that is rarely used in developing countries, and even more uncommon in the field of hydrology: involving citizens in monitoring and crowdsourcing data collection.

“Collecting data for water flow and quality is expensive, so we set out to find low-cost alternatives to the sophisticated standard methods used elsewhere,” says Rufino.

The team installed 13 water-level gauges equipped with signs explaining the monitoring process, instructing passersby to send measurements via text message. They would then receive immediate feedback on their phones.

Over the course of one year, experts compared the crowdsourced data with that of automatic gauging stations installed nearby.




Watch: A technical overview: The role of citizen science in monitoring water towers in Kenya

In addition to overcoming data scarcity, the project sought to answer two key questions: first, if rural communities in a remote tropical setting would engage in citizen science; and if so, whether or not they would produce data of high enough quality to inform water resource management.

The scientists published a report on their findings, as well as producing two videos to show the benefits of citizen monitoring to local and national natural resource managers and land-use planners.

“We thought that showing our project locations and sharing the stories of people we collaborated with would also increase interest in the role of forests in the supply of water,” says Rufino.

Read more: FTA scientists feature in innovative series of talks on landscapes

PHONING IN

In the end, 124 citizens reported 1,175 valid measurements. Less than 5 percent of the data points was invalid.

“We were struck by the participation rate,” says coauthor of the paper Lutz Breuer, Chair of Landscape, Water and Biogeochemical Cycles at the Research Centre for Biosystems, Land Use and Nutrition at Justus Liebig University Giessen in Germany.

“The quality of the data was also excellent, with almost no difference against that of our sophisticated equipment,” says Rufino. “Communities were interested in the initiative, and they told us why: their livelihoods depend on water, so they want to know the state of the resource.”

Based on phone surveys on the socioeconomic background of volunteers, the study concludes: “The active participation is not depending on the actual education level, but rather induced by their personal perception of and dependency on their environment.”

“We are talking about open access data: data that belongs to the people, and that could be used by them to make decisions about resource use,” says Breuer.

“Monitoring the condition of a resource by its users is an important aspect of governance, as it is generally expected to be the basis for the design or adjustment of the use and management of the resource,” echoes CIFOR Principal Scientist Esther Mwangi.




Watch: Opinions and testimonials: The role of citizen science in monitoring water towers in Kenya

MEASURING UP

This is not to say that citizens can entirely replace scientists and authorities. Certain hydrological parameters are too complex for citizen management, and Rufino says the team is seeking to engage Kenya’s Water Resources Agency to help implement the project in two new sites.

And, there’s the issue of keeping people engaged over a long period of time.

To address this, the study paid back the transmission costs (1 US cent per text message) sent from one of the stations, twofold. This proved to increase participation rate, which there was between 2.5 and 7 times higher than at other stations.

However, Rufino believes that “true, sustained engagement will come when locals see value in the data collection and can do something with it.”

For example, if communities understand that a lack of vegetation leads to runoff and lower water tables, they may decide to increase tree cover. Likewise, if they see the links between logging and increased sediment in their drinking-water streams, they may take steps to manage the felling.

“A logical next step would be an assessment of whether and how such locally generated data can spur local actions aimed at sustainable resource management,” says Mwangi.

The scientists will also explore hydrological modeling approaches, both to fill gaps in irregular measurements taken by citizens and to model future alternatives for the region.

“By modeling the effect of land-uses on water fluxes, we can anticipate impacts on water supply, and advise people how to improve agricultural and forest management,” Breuer says.

For Rufino, the project proved that crowdsourcing is the way forward. “We are confident this data-collection model can disseminate in East Africa, and we will make ourselves available to discuss the implementation of this approach with water resource management agencies in the region.”

For low-income countries, the scientists agree that this low-cost approach can work.

By Gloria Pallares, originally published at CIFOR’s Forests News.


This research forms part of the CGIAR Research Program on Forests, Trees and Agroforestry, which is supported by CGIAR Fund Donors.

This research was supported by the German Research Foundation (DFG) and the German Corporation for International Cooperation.


Notice: Undefined index: id in /home/ft4user/foreststreesagroforestry.org/wp-content/themes/FTA/template-parts/content.php on line 3
  • Home
  • Opinions and testimonials: The role of citizen science in monitoring water towers in Kenya

Opinions and testimonials: The role of citizen science in monitoring water towers in Kenya


Notice: Undefined variable: id_overview in /home/ft4user/foreststreesagroforestry.org/wp-content/themes/FTA/template-parts/content.php on line 64
Posted by

FTA COMMUNICATIONS TEAM




Center for International Forestry Research (CIFOR) scientists are involving local citizens in promoting low-cost methods for monitoring water quality, to inform upscaling of sustainable water management in Southwest Mau Forest, Kenya. This video provides opinions and testimonials from those who participated.

Originally published by CIFOR.


Notice: Undefined index: id in /home/ft4user/foreststreesagroforestry.org/wp-content/themes/FTA/template-parts/content.php on line 3
  • Home
  • A technical overview: The role of citizen science in monitoring water towers in Kenya

A technical overview: The role of citizen science in monitoring water towers in Kenya


Notice: Undefined variable: id_overview in /home/ft4user/foreststreesagroforestry.org/wp-content/themes/FTA/template-parts/content.php on line 64
Posted by

FTA COMMUNICATIONS TEAM




Center for International Forestry Research (CIFOR) scientists are involving local citizens in promoting low-cost methods for monitoring water quality, to inform upscaling of sustainable water management in Southwest Mau Forest, Kenya. This video provides a technical overview of the efforts.

Originally published by CIFOR.


Back to top

Sign up to our monthly newsletter

Connect with us